AMBE2000 Datasheet, PDF(40/47 Page) List of Unclassifed Manufacturers

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AMBE2000 Datasheet, PDF (40/47 Pages) List of Unclassifed Manufacturers – VOCODER CHIP

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AMBE-2000â¢ Vocoder Chip

Userâs Manual Version 3.0

7.4 Voice Activation Detection (VAD), Comfort Noise Insertion (CNI)

The Voice Activation Detection (VAD) algorithm along with the Comfort Noise Insertion (CNI) feature of the AMBE-2000â¢

chip performs useful functions in systems trying to convert periods of silence, that exist in normal conversation, to savings in

system bandwidth or power.

With the VAD functions enabled, periods of silence will be denoted by the encoder in two ways. First, the encoder will output

a silence frame (in-band). This silence frame contains information regarding the level of background noise which allows the

corresponding decoder to synthesize a âComfort Noiseâ signal at the other end. The comfort noise is intended to give the

listener the feeling that the call is still connected, as opposed to producing absolute silence which can give the impression that

the call has been âdroppedâ. Second, the Encoder Silence Detected flag is set in Control Word 1 of the Formatted Output

format described in section 5.3.3.

VAD can be enabled in one of two ways. A high signal on the hardware pin VAD_EN (pin 86), subject to the restrictions of

section 7.1, enables VAD. The Control Frame described in section 5.2.9 describes how to enable/disable the VAD algorithm

once the AMBE-2000â¢ has begun operating.

If the VAD features are being used to reduce transmit power during times of conversational silence, DVSI recommends that a

silence frame be transmitted at the start of the period and approximately each 500-1000 milliseconds thereafter. This is to

ensure that the parameters regarding the levels of background noise are transmitted to the decoder for the smoothest audible

transitions between synthesized speech and synthesized silence.

There is a silence threshold value is â25 dB in the VAD algorithm.

The synthesis of a Comfort Noise frame by the decoder is not dependant on VAD being enabled. The decoder will produce a

comfort noise frame if it receives an in-band silence frame (produced only by an encoder with VAD enabled).

7.5 Dual Tone Multiple Frequency, Detection and Generation

The AMBE-2000â¢ Vocoder Chip is capable of detecting, transmitting, and synthesizing DTMF tones. DTMF features are

always enabled. Detection of a DTMF tone by the encoder sets the DTMF Digit Detect in the DTMF Control Format found in

section 5.4.6. Which DTMF tone is detected along with amplitude information is placed in the bits 0-7 described in section

5.3.6. Additionally, the encoder passes the DTMF data in-band (within the regular voice data bits) so that normal DTMF tones

pass seamlessly from the encoder to the decoder for synthesis.

The decoder synthesizes a DTMF tone in response to reception of an in-band DTMF tone frame.

7.6 Normal Power and Power Saving Modes

Power savings can be achieved during times of longer inactivity of the AMBE-2000â¢ chip by placing it into one of three

available Low Power Modes. The chip can be placed into low-power and stand-by modes via hardware or software Control

Words. In low power modes the A/D-D/A port will be disabled, concurrently halting any processing of voice frames in either

direction. Depending on the low power state selected, either a Wake Up Control Word or a hardware reset on RESETN is

necessary to return the AMBE-2000â¢ to normal operation.

7.6.1

Standard Sleep Mode

The standard sleep is the only low power mode that can be entered into either through hardware or software. The AMBE-

2000â¢ Chip can be placed into Standard Sleep mode either by setting SLEEP_EN (pin 83) high, subject to the restrictions of

section 7.1, or through software by using Control Word 2 with bit 3 set to 1 as described in section 5.2.9.

SLEEP_EN should be tied high if you plan to configure the A/D-D/A chip from Standard Sleep mode upon power-up or reset.

When using software SLEEP_EN with A-law or Âµ-law codecs, it is important to note that if packets are sent to the decoder

while it is in sleep mode, noise will be heard at the output. It is recommended that no packets be sent to the decoder until it is

commanded to wake up.

page 40

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